scholarly article | Q13442814 |
P50 | author | Arijit Ghosh | Q51130327 |
Pratyush P. Mohapatra | Q55829716 | ||
Chandan Goswami | Q93132193 | ||
Ashutosh Kumar | Q112073030 | ||
P2093 | author name string | Abhishek Kumar | |
Apratim Maity | |||
Luna Goswami | |||
Nirlipta Swain | |||
Rakesh Kumar Majhi | |||
Somdatta Saha | |||
Vivek Kumar Sahoo | |||
P2860 | cites work | Lateral transfer of a lectin-like antifreeze protein gene in fishes | Q21144282 |
How cold is it? TRPM8 and TRPA1 in the molecular logic of cold sensation | Q21223670 | ||
MUSCLE: a multiple sequence alignment method with reduced time and space complexity | Q21284290 | ||
An integrated map of genetic variation from 1,092 human genomes | Q22122153 | ||
MUSCLE: multiple sequence alignment with high accuracy and high throughput | Q24613456 | ||
Ensembl's 10th year | Q24643906 | ||
Characterization of the mouse cold-menthol receptor TRPM8 and vanilloid receptor type-1 VR1 using a fluorometric imaging plate reader (FLIPR) assay | Q24672180 | ||
Database resources of the National Center for Biotechnology Information | Q24683601 | ||
Database resources of the National Center for Biotechnology Information | Q25254988 | ||
A review of bacteria-animal lateral gene transfer may inform our understanding of diseases like cancer | Q26864092 | ||
A general empirical model of protein evolution derived from multiple protein families using a maximum-likelihood approach | Q27860716 | ||
A method and server for predicting damaging missense mutations | Q27860835 | ||
MEGA5: Molecular Evolutionary Genetics Analysis Using Maximum Likelihood, Evolutionary Distance, and Maximum Parsimony Methods | Q27860929 | ||
The structures of cytochrome c and the rates of molecular evolution | Q28240776 | ||
Ensembl 2012 | Q28253062 | ||
TRPM8, a versatile channel in human sperm | Q28475739 | ||
The cold and menthol receptor TRPM8 contains a functionally important double cysteine motif | Q28504506 | ||
Cysteine-rich secretory protein 4 is an inhibitor of transient receptor potential M8 with a role in establishing sperm function | Q28510441 | ||
A TRP channel that senses cold stimuli and menthol | Q28511363 | ||
The transient receptor potential channel TRPM8 is inhibited via the alpha 2A adrenoreceptor signaling pathway | Q28578194 | ||
Identification of a cold receptor reveals a general role for TRP channels in thermosensation | Q28580334 | ||
SIFT: Predicting amino acid changes that affect protein function | Q29547211 | ||
Ensembl 2009 | Q29614532 | ||
Thermosensitive ion channel TRPV1 is endogenously expressed in the sperm of a fresh water teleost fish (Labeo rohita) and regulates sperm motility | Q30579677 | ||
TRPA1 and TRPM8 activation in humans: effects of cinnamaldehyde and menthol | Q33216316 | ||
High-throughput random mutagenesis screen reveals TRPM8 residues specifically required for activation by menthol | Q33235641 | ||
Transient receptor potential ion channels control thermoregulatory behaviour in reptiles | Q33278266 | ||
Thermosensation. Some like it hot. | Q40953612 | ||
Transient receptor potential melastatin 8 (TRPM8) channels are involved in body temperature regulation | Q41479772 | ||
Thermoreceptors: recent heat in thermosensation | Q41651080 | ||
Expression of transient receptor potential (TRP) channels in human and murine osteoblast-like cells. | Q42447163 | ||
Impaired basal thermal homeostasis in rats lacking capsaicin-sensitive peripheral small sensory neurons | Q42522493 | ||
Evolution of Type II Antifreeze Protein Genes in Teleost Fish: A Complex Scenario Involving Lateral Gene Transfers and Episodic Directional Selection | Q42561930 | ||
Intragastric administration of TRPV1, TRPV3, TRPM8, and TRPA1 agonists modulates autonomic thermoregulation in different manners in mice. | Q46022984 | ||
PI(4,5)P2 regulates the activation and desensitization of TRPM8 channels through the TRP domain | Q46455727 | ||
The contribution of TRPM8 channels to cold sensing in mammalian neurones | Q46551406 | ||
Phylogenetic analysis and expression of zebrafish transient receptor potential melastatin family genes | Q47877418 | ||
Evolution of thermoTRP ion channel homologs in vertebrates. | Q51142108 | ||
Use of Ranks in One-Criterion Variance Analysis | Q56481762 | ||
The structure of cytochromec and the rates of molecular evolution | Q56592733 | ||
TRPM8 in mouse sperm detects temperature changes and may influence the acrosome reaction | Q57608947 | ||
The inhibition of bone resorption in rats treated with (-)-menthol is due to its metabolites | Q79190855 | ||
Human odontoblasts express functional thermo-sensitive TRP channels: implications for dentin sensitivity | Q82942181 | ||
[Expression of TRPM and TRPV channel family mRNA in rat spermatogenic cells] | Q83122479 | ||
Ambient temperature affects the temperature threshold for TRPM8 activation through interaction of phosphatidylinositol 4,5-bisphosphate | Q86536350 | ||
Evolution of thermal response properties in a cold-activated TRP channel | Q33459124 | ||
The contribution of TRPM8 and TRPA1 channels to cold allodynia and neuropathic pain | Q33509286 | ||
The cell biology of osteoclast function. | Q33819720 | ||
Cooling-sensitive TRPM8 is thermostat of skin temperature against cooling | Q33846996 | ||
Temperature sensing across species | Q33887591 | ||
Common herbs, essential oils, and monoterpenes potently modulate bone metabolism | Q34189938 | ||
Conservation of tubulin-binding sequences in TRPV1 throughout evolution | Q34229765 | ||
TRPM8 activation by menthol, icilin, and cold is differentially modulated by intracellular pH. | Q34326212 | ||
Histone Sequence Database: a compilation of highly-conserved nucleoprotein sequences | Q34374402 | ||
Smelt was the likely beneficiary of an antifreeze gene laterally transferred between fishes | Q34421080 | ||
Comprehensive analysis of the ascidian genome reveals novel insights into the molecular evolution of ion channel genes | Q34421194 | ||
Coiled coils direct assembly of a cold-activated TRP channel | Q34457344 | ||
Importance of a conserved sequence motif in transmembrane segment S3 for the gating of human TRPM8 and TRPM2 | Q34490631 | ||
A hot-sensing cold receptor: C-terminal domain determines thermosensation in transient receptor potential channels. | Q34521627 | ||
The TRPM8 protein is a testosterone receptor: II. Functional evidence for an ionotropic effect of testosterone on TRPM8 | Q35048801 | ||
The TRPM8 protein is a testosterone receptor: I. Biochemical evidence for direct TRPM8-testosterone interactions | Q35048888 | ||
Lessons from peppers and peppermint: the molecular logic of thermosensation | Q35215864 | ||
Examination of the role of TRPM8 in human mast cell activation and its relevance to the etiology of cold-induced urticaria | Q35377612 | ||
Novel aspects of signaling and ion-homeostasis regulation in immunocytes. The TRPM ion channels and their potential role in modulating the immune response | Q35818861 | ||
Thermosensation and pain | Q35884812 | ||
Gating of TRP channels: a voltage connection? | Q36119232 | ||
Horizontal transfers of Tc1 elements between teleost fishes and their vertebrate parasites, lampreys. | Q36450533 | ||
Pharmacological blockade of the cold receptor TRPM8 attenuates autonomic and behavioral cold defenses and decreases deep body temperature | Q36593985 | ||
1,8-cineole, a TRPM8 agonist, is a novel natural antagonist of human TRPA1. | Q36595632 | ||
Bone morphogenetic protein-2 activity is regulated by secreted phosphoprotein-24 kd, an extracellular pseudoreceptor, the gene for which maps to a region of the human genome important for bone quality | Q37449764 | ||
Function and regulation of TRP family channels in C. elegans | Q37473155 | ||
Clues to understanding cold sensation: thermodynamics and electrophysiological analysis of the cold receptor TRPM8. | Q37585521 | ||
Lipid raft segregation modulates TRPM8 channel activity | Q39889928 | ||
Differential role of the menthol-binding residue Y745 in the antagonism of thermally gated TRPM8 channels. | Q39932650 | ||
The role of the N terminus and transmembrane domain of TRPM8 in channel localization and tetramerization | Q40073830 | ||
TRPM8 voltage sensor mutants reveal a mechanism for integrating thermal and chemical stimuli | Q40172246 | ||
Ethanol inhibits cold-menthol receptor TRPM8 by modulating its interaction with membrane phosphatidylinositol 4,5-bisphosphate | Q40214222 | ||
Trafficking and assembly of the cold-sensitive TRPM8 channel. | Q40215690 | ||
Molecular identification and functional characterization of a temperature-sensitive transient receptor potential channel (TRPM8) from canine | Q40335063 | ||
Conservation of functional and pharmacological properties in the distantly related temperature sensors TRVP1 and TRPM8. | Q40418274 | ||
TRPM8 protein localization in trigeminal ganglion and taste papillae | Q40422683 | ||
Application of menthol to the skin of whole trunk in mice induces autonomic and behavioral heat-gain responses | Q40440576 | ||
Cold-seeking behavior as a thermoregulatory strategy in systemic inflammation. | Q40475223 | ||
The super-cooling agent icilin reveals a mechanism of coincidence detection by a temperature-sensitive TRP channel | Q40516374 | ||
The principle of temperature-dependent gating in cold- and heat-sensitive TRP channels | Q40526282 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | e1310 | |
P577 | publication date | 2015-01-01 | |
P1433 | published in | PeerJ | Q2000010 |
P1476 | title | Expression of temperature-sensitive ion channel TRPM8 in sperm cells correlates with vertebrate evolution | |
P478 | volume | 3 |
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Q92090008 | Influence of Temperature on Motor Behaviors in Newborn Opossums (Monodelphis domestica): An In Vitro Study |
Q90231946 | Phylogenetics identifies two eumetazoan TRPM clades and an 8th TRP family, TRP soromelastatin (TRPS) |
Q90050761 | Searching for Signatures of Cold Climate Adaptation in TRPM8 Gene in Populations of East Asian Ancestry |
Q31056440 | Why individual thermo sensation and pain perception varies? Clue of disruptive mutations in TRPVs from 2504 human genome data |
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